Reprint
Industrial Applications of Power Electronics
Edited by
December 2020
322 pages
- ISBN978-3-03943-483-1 (Hardback)
- ISBN978-3-03943-484-8 (PDF)
This book is a reprint of the Special Issue Industrial Applications of Power Electronics that was published in
Computer Science & Mathematics
Engineering
Physical Sciences
Summary
In recent years, power electronics have been intensely contributing to the development and evolution of new structures for the processing of energy. They can be used in a wide range of applications ranging from power systems and electrical machines to electric vehicles and robot arm drives. In conjunction with the evolution of microprocessors and advanced control theories, power electronics are playing an increasingly essential role in our society. Thus, in order to cope with the obstacles lying ahead, this book presents a collection of original studies and modeling methods which were developed and published in the field of electrical energy conditioning and control by using circuits and electronic devices, with an emphasis on power applications and industrial control. Researchers have contributed 19 selected and peer-reviewed papers covering a wide range of topics by addressing a wide variety of themes, such as motor drives, AC–DC and DC–DC converters, multilevel converters, varistors, and electromagnetic compatibility, among others. The overall result is a book that represents a cohesive collection of inter-/multidisciplinary works regarding the industrial applications of power electronics.
Format
- Hardback
License
© 2021 by the authors; CC BY-NC-ND license
Keywords
failure mode; impulse current; microstructure; multiple lightning; ZnO varistors; multilevel matrix converter; rotating voltage space vector; common move voltage; space vector pulse width modulation; venturini control method; electric vehicle; electromagnetic compatibility; electromagnetic topology; radiated emission; nonlinear effects; three-level neutral-point clamped inverter; induction motor; speed observation; compensation; impedance-source inverter; shoot-through; dc-dc converter; dc-ac converter; DC-DC power converter; Takagi–Sugeno fuzzy system; hierarchical binary tree; circuit breaker; fault current limiter; current source circuit; voltage clamping; constant current control; frequency domain electromagnetic; weighted factor; model predictive flux control; interior permanent magnet synchronous; discrete space vector modulation; fault current limiter; microgrid protection; power quality; fault current; H bridge; look-up table; interpolation error; PMSM drive; circulating current control; modular multilevel converter (MMC); static synchronous compensator (STATCOM); asymmetric; capacitors; multilevel inverter; power electronics; self-charging; virtual DC links; full-bridge converter; phase shift modulation; supercapacitors; isolated DC-DC bidirectional converter; electrostatic discharge (ESD); elliptical-cylinder type; human-body model (HBM); n-channel lateral-diffused MOSFET (nLDMOS); super-junction (SJ); ultra high-voltage (UHV); aging characteristics; impulse current; multiple lightning; ZnO varistors; energy absorption; boost inverter; multilevel inverter; power electronics; single source; low components; PMBLDC motor; power electronics; fuzzy-logic controller design; common mode inverters; photovoltaic; leakage current elimination; pulse width modulation; power converters; electrical machines; power grid stability analysis; inverters; power supplies; power quality; multilevel converters; motor drives; power semiconductor devices; electromagnetic compatibility